Abstract: An integrated circuit has a multi-layer stack such as a gate stack or a digit line stack disposed on a layer comprising silicon. A conductive film is formed on the transition metal boride layer. A process for fabricating such devices can include forming the conductive film using a vapor deposition process with a reaction gas comprising fluorine. In the case of a gate stack, the transition metal boride layer can help reduce or eliminate the diffusion of fluorine atoms from the conductive film into a gate dielectric layer. Similarly, in the case of digit line stacks as well as gate stacks, the transition metal boride layer can reduce the diffusion of silicon from the polysilicon layer into the conductive film to help maintain a low resistance for the conductive film.

Abstract: A unique electrochemical process fills oxygen vacancies in dielectrics while reducing oxidation of nearby electrodes and conductors. Preferably, an electromagnetic field or bias is applied to a dielectric. The bias causes oxygen vacancies in the dielectric to migrate to the surface of the dielectric. As the oxygen vacancies migrate toward the surface, oxygen ions fill the oxygen vacancies. In one embodiment, a unique plasma treatment provides the oxygen ions that react with the oxygen vacancies. In another embodiment, a unique electrolysis treatment provides the oxygen ions that react with the oxygen vacancies.

Abstract: In methods for fabricating MOS transistors with notched gate electrodes, a notched gate electrode may be readily fabricated using a damascene process for filling a stair-shaped opening formed in a multi-layered insulation layer. In this manner, the width and a height of the notch region of the gate electrode may be readily adjusted and controlled.